Electronic pen

ABSTRACT

An electronic pen is provided that is enhanced in strength such as not to be bent or broken even when made to be thinner (smaller in diametric size). A connection section holds a core body at one end thereof and holds a circuit board at the other end thereof. The circuit board is accommodated in a board protecting pipe, which is fitted to the connection section. The board protecting pipe is provided with a side opening, and an operation on an electronic part on the circuit board accommodated therein and a work on an electronic circuit formed on the circuit board can be performed through the side opening. An electronic pen main body section wherein the core body and the circuit board and the board protecting pipe are united together through the connection section is accommodated in a casing, to constitute the electronic pen.

BACKGROUND Technical Field

The present disclosure relates to an electronic pen which is a pen-typeposition indicator for use with a position detecting device.

Description of the Related Art

An electronic pen is grasped by a user, and is used to indicate aposition on a sensor of a position detecting device. The positionindicated on the sensor by the electronic pen is detected by theposition detecting device through transfer of a position detectionsignal between the electronic pen and the sensor by various couplingsystems such as an electromagnetic induction coupling system and acapacitive coupling system. Note that an example of an input deviceincluding an electronic pen and a coordinate detection sensor of theelectromagnetic induction system is disclosed in Patent Document 1 setforth later, and an example of an input device including an electronicpen and a coordinate detection sensor of the capacitive system isdisclosed in Patent Document 2 set forth later.

PRIOR ART DOCUMENT Patent Documents

-   Patent Document 1: Japanese Patent Laid-Open No. 1995-044304-   Patent Document 2: Japanese Patent Laid-Open No. 1995-295722

BRIEF SUMMARY Technical Problems

An electronic pen used in a position detecting device of theelectromagnetic induction coupling system or a capacitive couplingsystem is configured with a circuit board and a battery and the likemounted therein. For this reason, conventional electronic pens have beenthicker (diametrically larger) than general writing utensils such as,for example, ball-point pens and fountain pens. However, attendant onthe reductions in size and thickness of electronic apparatuses such asso-called tablet personal computers (PCs) with a position detectingdevice mounted therein and high-function mobile phone terminals calledsmartphones and the like, electronic pens have also come to be demandedto be smaller in thickness (diametric size).

In correspondence with this, formation of capacitors and the like on acircuit board incorporated in an electronic pen in the form of chips,reduction in the size of a pen pressure (writing pressure) detector andthe like have been promoted, and reduction in the thickness (diametricsize) of an electronic pen has also been advanced. However, attendant onthe reduction in the thickness (diametric size) of the electronic pen,the thickness of an outside casing of the electronic pen has also beenreduced, and there is a worry that the electronic pen might becomeweaker in strength, namely, might become liable to bend or break. Inview of this, a technology for enhancing the strength of electronic penson the trend toward smaller thickness (smaller diametric size) has cometo be requested.

In consideration of the foregoing, it is an object of the presentdisclosure to provide an electronic pen enhanced in strength such as notto be bent or broken even when made thinner (smaller in diametric size).

Technical Solution

In order to solve the above problems, an electronic pen of thedisclosure as described in claim 1 includes a core body, a circuitboard, a connection member that holds the core body at one end thereofand holds the circuit board at an other end thereof, a rigid tubularmember accommodating the circuit board, and a casing that accommodatesthe core body, the circuit board, the connection member, and the rigidtubular member such that a tip portion of the core body protrudesthrough an opening in the casing to outside of the casing. The rigidtubular member has a side opening that enables an operation to beperformed on the accommodated circuit board, and is fitted to theconnection member at one end in an axial direction thereof.

According to the electronic pen of the disclosure as described in claim1, the connection member holds the core body at one end thereof andholds the circuit board at the other end thereof. The circuit board isaccommodated in the rigid tubular member provided with the side opening,and the rigid tubular member is fitted to the connection member. Bythis, an electronic pen main body section (electronic pen functionalsection) wherein the core body, the circuit board, and the rigid tubularmember are united together through the connection member is configured,and it is accommodated in the casing, whereby the electronic pen isconfigured.

By this, an electronic pen with high strength in which the circuit boardis protected by the rigid tubular member can be formed. In addition,after the circuit board is accommodated in the rigid tubular member, anoperation on an electronic part provided on the circuit board and a workon an electronic circuit formed on the circuit board can be performedthrough the side opening provided in the rigid tubular member.

Advantageous Effects

According to the present disclosure, it is possible to realize anelectronic pen enhanced in strength such as not to be bent or brokeneven when made thinner (smaller in diametric size). Moreover, memberscan be firmly connected together, and an operation on an electronic partmounted on the circuit board and a work on the circuit board areprevented from becoming impossible to carry out.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a figure for explaining an outline of an electronic penaccording to an embodiment of the present disclosure.

FIGS. 2A and 2B are an exploded perspective view and a cross-sectionalview, respectively, for explaining the inside configuration of anelectronic pen according to an embodiment of the present disclosure.

FIG. 3 is a sectional view of a part where a core body, a coil section,a pressure detector, a circuit board, and a board protecting pipe areconnected, in an electronic pen according to an embodiment of thepresent disclosure.

FIGS. 4A and 4B are figures for explaining a state in which the circuitboard is accommodated in the board protecting pipe, in an electronic penaccording to an embodiment of the present disclosure.

FIG. 5 is a block diagram depicting a circuit configuration example ofan electronic pen and a position detecting device according to anembodiment of the present disclosure.

FIGS. 6A and 6B are figures for explaining an electronic pen cartridgeconfigured by use of an electronic pen main body section according to anembodiment of the present disclosure.

FIGS. 7A, 7B, and 7C are figures for explaining an example in a casewhere the electronic pen cartridge is utilized for a casing of amulti-color ball-point pen.

FIGS. 8A, 8B, and 8C are figures for explaining an example in a casewhere a pen pressure detector is provided on a side opposite of the corebody.

FIG. 9 is a sectional view for explaining an example in a case where thepresent disclosure is applied to an electronic pen main body section ofa capacitive coupling system.

FIG. 10 is a block diagram for explaining a position detecting device inwhich a coordinate detection sensor of a capacitive coupling system isused.

FIGS. 11A, 11B, and 11C are figures for explaining modifications of theboard protecting pipe.

FIG. 12 is a figure for explaining an example in a case where a circuitboard is formed with switch terminals.

FIGS. 13A and 13B are figures for explaining a general configuration ofa sliding member for changing over a switch.

FIGS. 14A and 14B are figures for explaining a configuration example ofa switch which utilizes a knocking mechanism of a ball-point pen.

FIG. 15 is a figure for explaining another configuration example of theconnection section.

FIG. 16 is a figure depicting an example of an equivalent circuit of anelectronic pen in a case where the connection section of FIG. 15 isused.

FIGS. 17A and 17B are figures for explaining an example of a boardprotecting pipe of a different shape.

DETAILED DESCRIPTION

An embodiment of an electronic pen according to the present disclosurewill be described below, referring to the drawings. First, an embodimentin a case where the present disclosure is applied to an electronic penof an electromagnetic induction system will be described.

[Configuration of Electronic Pen]

FIG. 1 is a figure for explaining a configuration example of anelectronic pen of an embodiment of the present disclosure, and is forexplaining an outline of the whole of an electronic pen 10 in thepresent embodiment. In FIG. 1, a casing (case) 11 of the electronic pen10 in the present embodiment is cut, and the inside of the same isdepicted.

The electronic pen 10 in the present embodiment has a configurationwherein an electronic pen main body section 8 is accommodated in thecasing 11. As illustrated in FIG. 1, the electronic pen main bodysection 8 is a section configured to include a core body 1, a coilsection 2, a connection section (connection member) 3, and a circuitboard 4, in which a board protecting pipe (rigid tubular member) 6 isprovided around the circuit board 4, and, further, an end of the boardprotecting pipe 6 on the side opposite to the core body 1 side is closedwith a pipe cap 7.

FIG. 2A is an exploded perspective view for explaining the configurationof the electronic pen main body section 8. The coil section 2 is formedby winding an insulated wire (coated wire) around a hollow cylindricalferrite 21. As depicted in FIG. 2A, ferrite portions around which thecoated wire is not wound are provided on both sides in the axialdirection of the coil section 2.

As depicted in FIG. 1 and FIG. 2A, the connection section 3 includes, inrough classification, a pen pressure detector 31, a fitting section 32,and a connection terminal section 33. The pen pressure detector 31 isconfigured in a cylindrical shape from a resin or the like, and theouter periphery and shape of its end face on the coil section 2 side aresubstantially coincident with the outer periphery and shape of thatportion of the coil section 2 around which the coil is wound. Besides,on the side of that end face of the pen pressure detector 31 which facesthe coil section 2, there is provided a recess for fitting to thatferrite section of the coil section 2 around which the coated wire isnot wound. In addition, as will also be described later, a member forholding the core body 1 and a pressure-sensing part for detecting a penpressure exerted on the core body 1 are provided inside the pen pressuredetector 31.

The fitting section 32 is a section for fitting to the board protectingpipe 6 which will be described later. The fitting section 32 is formed,for example, in a substantially hollow cylindrical shape from a resin, arigid rubber or the like, and is firmly fitted to and united with thepen pressure detector 31. Though not illustrated, a recess for fittingto a projected portion 4 a of the circuit board 4 which will bedescribed later is provided inside the fitting section 32. Note that theoutside diameter of the fitting section 32 is slightly longer than theinside diameter of the board protecting pipe 6, such as to permit firmfitting of the fitting section 32 to the board protecting pipe 6. It isensured that when the board protecting pipe 6 is fitted to the fittingsection 32, the outer periphery of the board protecting pipe 6 coincideswith the outer periphery of the pen pressure detector 31. In otherwords, the outside diameter of the coil section 2, the outside diameterof the pen pressure detector 31, and the outside diameter of the boardprotecting pipe 6 are substantially the same. Note that an end of thefitting section 32 on the side opposite to the core body 1 is providedwith an inclined portion where the outer periphery of the fittingsection 32 is shorter than the inner periphery of the board protectingpipe 6, in order to permit easy insertion of the board protecting pipe6.

As depicted in FIG. 2A, the connection terminal section 33 is providedwith upper and lower two plate portions for coupling to the fittingsection 32. The plate portions are to be disposed such that the circuitboard 4, which will be described later, is sandwiched therebetween. Inthis case, the spacing between the upper and lower two plate portions isslightly narrower than the thickness of the circuit board 4, such thatthe circuit board 4 can be clamped therebetween. As depicted in FIG. 1and FIG. 2A, one of these two plate portions is provided with terminals33 a and 33 b to which signal wires extended from terminal members ofthe pressure-sensing part of the pen pressure detector 31 are connected.

The circuit board 4 is formed in a configuration wherein terminals 41 aand 41 b and various circuit parts are mounted on a rectangularinsulating substrate provided with projected portions 4 a and 4 b atboth ends in the axial direction, and wiring for connecting them isprovided on the insulating substrate. The various circuit parts includean integrated circuit (IC) 42 functioning as a control circuit, a sideswitch 43, and capacitors 44 to 49. As depicted in FIGS. 1 and 2A, thecircuit board 4 is accommodated inside the board protecting pipe 6 andis thereby protected.

Ideally, the circuit board 4 is accommodated in the board protectingpipe 6 in such a manner that an axis O of the board protecting pipe 6and the axis of the circuit board 4 substantially coincide with eachother, as depicted in FIG. 2B. In this case, it is ideal for the circuitboard 4 to be formed in such a manner that, exclusive of the parts ofthe projected portions 4 a and 4 b provided at both ends in the axialdirection thereof, the diagonal of a section in a direction orthogonalto the axis thereof is equal to the inside diameter of the boardprotecting pipe 6. However, in order that the circuit board 4 can beeasily accommodated in the board protecting pipe 6, the diagonal of thesection in the direction orthogonal to the axial direction, indicated bydotted line in FIG. 2B, is set to be slightly shorter than the insidediameter of the board protecting pipe 6.

The board protective pipe 6 is a rigid tubular member which is formed byuse of a metal, a carbon material, a synthetic resin or the like and isnot liable to be broken or bent. As depicted in FIG. 2A, the boardprotecting pipe 6 has a core body side opening 61 and a rear end sideopening 62 at both ends thereof. The core body side opening 61 and therear end side opening 62 are openings in directions that intersect theaxial direction. A part in a predetermined range inside the boardprotecting pipe 6 from the core body side opening 61 is a core body sidefitting section 61 a into which the fitting section 32 of the connectionsection 3 is inserted and fitted. Similarly, a part in a predeterminedrange inside the board protecting pipe 6 from the rear end side opening62 is a rear end side fitting section 61 a into which the pipe cap 7, tobe described later, is inserted.

Note that in the present embodiment, as depicted in FIG. 2A, the part ofthe rear end side fitting section 62 a is provided with a projectedportion 62 b for fitting to a recess 7 b of the pipe cap 7 which will bedescribed later. Besides, similarly to the case of the rear end sidefitting section 62 a, the core body side fitting section 61 a may alsobe provided with a projected portion, and a recess conforming to theprojected portion may be provided in the fitting section 32 of theconnection section 3. With such a configuration, the fitting section 32of the connection section 3 and the board protecting pipe 6 can befitted to each other more firmly.

Further, the board protecting pipe 6 has an opening (a side opening in adirection along the axial direction) 63 formed in the manner of cuttingaway a part of a side wall of the board protecting pipe 6 such as tointerconnect the core body side opening 61 and the rear end side opening62. In this case, the board protecting pipe 6 has a side wall in anangular range of not less than 180 degrees with its axis as a center,notwithstanding it is provided with the opening 63. More specifically,as depicted in FIG. 2B, the side wall of the board protecting pipe 6 isleft in such a manner that when the circuit board 4 is accommodated inthe board protecting pipe 6, both long sides of that surface of thecircuit board 4 which faces the opening 63 make contact with an innerwall of the board protecting pipe 6. In other words, the width in adirection orthogonal to the axial direction of the opening 63 is set tobe narrower than the width in a direction intersecting the axialdirection of other portion of the circuit board 4 than the projectedportions 4 a and 4 b.

In addition, as depicted in FIG. 2A, the board protecting pipe 6 isprovided with a cutout 61 b in a part of the core body side fittingsection 61 a. Though not illustrated, a projected portion provided inthe fitting section 32 of the connection section 3 is fitted to thecutout 61 b, whereby it is ensured that where the board protecting pipe6 is fitted to the fitting section 32, their positions are restrictedsuch as to prevent both of them from rotating. Besides, as depicted inFIG. 2A, the board protecting pipe 6 is provided with board receivingbase attaching holes 64 a and 64 b as board fixing portions for fixingthe board.

A trapezoidal board receiving base 5 is attached to the board receivingbase attaching holes 64 a and 64 b of the board protecting pipe 6, asdepicted in FIG. 2A. That surface of the board receiving base 5 which isattached to the board protecting pipe 6 is curved correspondingly to theshape of the inner wall of the board protecting pipe 6, as depicted inFIG., and is provided with fixing projections 51 a and 51 b to be fittedto the board receiving base attaching holes 64 a and 64 b, as depictedin FIG. 2A. With the fixing projections 51 a and 51 b of the boardreceiving base fitted into the board receiving base attaching holes 64 aand 64 b of the board protecting pipe 6, the board receiving base 5 isfixed to the board protecting pipe 6. The board receiving base 5 isprovided between the board protecting pipe 6 and the circuit board 4, asillustrated in FIG. 2B.

Note that the board fixing portions can be used not only for attachingthe board receiving base 5 but also for fixing the board protecting pipeto a workbench or the like. In addition, the board fixing portions arenot limited to the attaching holes. For example, in the case where theboard receiving base 5 is provided with a recess or recesses, the boardfixing portions may be in the shape of a projection or projections to befitted to the recess or recesses; alternatively, the board fixingportions may be in the shape of hooks for clamping the board receivingbase on front and rear sides of the board receiving base; thus, variousmodes for fixing the board receiving base 5 to the board protecting pipe6 can be adopted.

Further, as depicted in FIG. 2A, the pipe cap 7 is provided which isfitted to the rear end side fitting section 62 a of the board protectingpipe 6. The pipe cap 7 has a fitting section 7 a coinciding with theinside diameter of the rear end side fitting section 62 a of the boardprotecting pipe 6, and the fitting section 7 a is provided with therecess 7 b conforming to the projected portion 62 b provided in the rearend side fitting section 62 a of the board protecting pipe 6. Inaddition, the fitting section 7 a of the pipe cap 7 is provided on theinside thereof with a recess 7 c to which the projected portion 4 b ofthe circuit board 4 is fitted. Besides, an end, on the side opposite tothe board protecting pipe 6, of the fitting section 7 a of the pipe cap7 is a flange portion which has a diameter equal to the outside diameterof the board protecting pipe 6 and has a certain extent of thickness.

The core body 1 penetrates the ferrite 21 of the coil section 2, reachesthe pen pressure detector 31 of the connection section 3 fitted to theferrite 21, and is held at the pen pressure detector 31. Besides, thecircuit board 4 is inserted in between the two plate portions of theconnection terminal section 33 of the connection section 3. By this, theprojected portion 4 a on the core body side of the circuit board 4 isfitted into the recess of the fitting section 32, and the circuit board4 is clamped between the two plate portions of the connection terminalsection 33. In addition, the terminal 33 a of the connection terminalsection 33 and the terminal 41 a of the circuit board 4 are connected toeach other, and the terminal 33 b of the connection terminal section 33and the terminal 41 b of the circuit board 4 are connected to eachother.

The terminals 41 a and 41 b of the circuit board 4 are connected to anelectronic circuit formed on the circuit board 4 that includes the IC42, the side switch 43, the capacitors 44 to 49 and the like. By this, apen pressure can be detected at the IC 42 and can be utilized. Inaddition, though not illustrated in FIGS. 2A and 2B, extension wires 23a and 23 b extending from both coil ends of the coil section 2 are alsoconnected to the electronic circuit formed on the circuit board 4. Bythis, the coil 22 constitutes a resonance circuit together with the IC42 and the capacitors 44, 45, . . . on the circuit board 4, and, thoughdetails will be described later, signals can be transferred between theposition detecting device and the electronic pen 10 in the presentembodiment.

FIG. 3 is a sectional view of a connection site in the case where thecore body 1, the coil section 2, the connection section 3, the circuitboard 4, and the board protecting pipe 6 are connected. In FIG. 3, thepen pressure detector 31 of the connection section 3 is formed byproviding the pressure-sensing parts in a resin mold 31 x, for example.Besides, as depicted in FIG. 3, that ferrite 21 part of the coil section2 around which the coil 22 is not wound is fitted into and connected tothe recess in the pen pressure detector 31 of the connection section 3.

As depicted in FIG. 3, the pressure-sensing parts of the pen pressuredetector 31 consist of a plurality of parts, namely, a dielectric 31 a,a terminal member 31 b, a holding member 31 c, a conductive member 31 d,and an elastic member 31 e. The terminal member 31 b is formed of aconductive material, and constitutes a first electrode of a variablecapacitor composed of the pressure-sensing parts. In addition, theconductive member 31 d is composed, for example, of a conductive rubber,and the elastic member 31 e is composed of a coil spring formed of aconductive material. The conductive member 31 d and the elastic member31 e are electrically connected, and constitute a second electrode ofthe variable capacitor.

As depicted in FIG. 3, the core body 1 penetrates the hollow cylindricalferrite 21 of the coil section 2, and reaches, and is held by, theholding member 31 c of the pen pressure detector 31. By this, thecapacitance of the variable capacitor (pressure-sensing member) formedbetween the terminal member 31 b constituting the first electrode andthe conductive member 31 d constituting the second electrode is variedaccording to a pressure exerted on the core body 1. Variation in thecapacitance of the variable capacitor is connected to the connectionterminals 33 a and 33 b of the connection terminal section 33 throughthe signal wires.

Further, as depicted in FIG. 3, the core body side projected portion 4 aof the circuit board 4 is fitted into the fitting section 32, and thecircuit board 4 is connected to the two plate portions of the connectionterminal section 33 in the manner of being clamped between the two plateportions. By this, as depicted in FIG. 3, the connection terminal 33 aof the connection terminal section 33 and the terminal 41 a of thecircuit board 4 are connected. In addition, the connection terminal 33 bof the connection terminal section 33 and the terminal 41 b of thecircuit board 4 are connected. By this, as aforementioned, the signalwires extending from the terminal members of the pressure-sensing partsof the pen pressure detector 31 are connected to the circuit board 4. Inaddition, as depicted in FIG. 3, the extension wires 23 a and 23 bextending from both ends of the coil section 2 and the circuit board 4are connected, and constitute the resonance circuit together with thecapacitors 44 and the like on the circuit board 4, as alsoaforementioned.

The circuit board 4 is accommodated in the board protecting pipe 6. Inthis case, the fitting section 32 of the connection section 3 and thecore body side fitting section 61 a of the board protecting pipe 6 arefitted to each other, such that the connection section 3 and the boardprotecting pipe 6 are not separated from each other. By this, thecircuit board 4 is protected by the board protecting pipe 6, and isprevented from being bent or broken.

FIG. 4A is a figure for explaining a state in which the circuit board 4is accommodated in the board protecting pipe 6. As depicted in FIG. 4A,the overall length of the board protecting pipe 6 and that of thecircuit board 4 are substantially the same. In other words, the whole ofthe circuit board 4 can be accommodated in the board protecting pipe 6.In addition, in the state in which the circuit board 4 is accommodatedin the board protecting pipe 6, the side switch 43 can be operatedthrough the opening 63 which is provided in an upper portion of theboard protecting pipe 6 in FIG. 4A.

Besides, as also aforementioned, the coil 22 of the coil section 2 andthe plurality of capacitors 44 to 49 on the circuit board 4 areconnected to constitute the resonance circuit, so that signals can betransferred between the electronic pen 10 and the position detectingdevice. However, in view of the capacitance in the resonance circuit,all the capacitors may not necessarily be connected. In such a case, anoperation of cutting the connection of the unrequired capacitors bylaser or the like can be performed on the circuit board 4 through theopening 63.

In addition, when the circuit board 4 is accommodated into the boardprotecting pipe 6 through, for example, the core body side opening 61 ofthe board protecting pipe 6, the lower side of a tip of the circuitboard 4 comes into contact with an inclined surface of the trapezoidalboard receiving base, as depicted in FIG. 4B, and is pushed up in thedirection of arrow. As also aforementioned, the diagonal of the sectionas viewed in the axial direction of the circuit board 4 is slightlyshorter than the inside diameter of the board protecting pipe 6.Therefore, with the circuit board 4 slightly lifted up by the boardreceiving base 5, both long sides of that surface of the circuit board 4which faces the opening 63 of the board protecting pipe 6 are pressedagainst the inner wall of the board protecting pipe 6.

By this, the circuit board 4 is clamped between the board receiving base5 and the board protecting pipe 6, and is thereby fixed in the boardprotecting pipe 6. Note that also in the case of accommodating thecircuit board 4 through the rear end side opening 62, the circuit board4 can be similarly clamped between the board receiving base 5 and theboard protecting pipe 6. Further, the pipe cap 7 is fitted into the rearend side opening 62 of the board protecting pipe 6, and the recess 7 cin the pipe cap 7 is fitted to the rear end side projected portion 4 bof the circuit board 4.

In this way, the coil section 2 is fixed by being fitted to the recessprovided in the pen pressure detector 31 of the connection section 3.Then, the core body 1 penetrating the ferrite of the coil section 2reaches the holding member 31 c of the pen pressure detector 31 and isthereby held. In addition, the circuit board 4 is fitted to the recessin the fitting section 32 of the connection section 3, and, further, isclamped between the two plate portions of the connection terminalsection 33, to be thereby fixed. Besides, the circuit board 4 is fixedin the board protecting pipe 6, by the action of the board receivingbase 5 fixed in the board protecting pipe 6, and is thereby protectedfrom external pressures. In addition, the board protecting pipe 6 isfixed by being fitted to the fitting section 32 of the connectionsection 3.

Further, the pipe cap 7 is fitted into the rear end side opening 62 ofthe board protecting pipe 6, and the recess 7 c in the pipe cap 7 isfitted to the rear end side projected portion 4 b of the circuit board4, whereby the circuit board 4 is fixed within the board protecting pipe6. By this, the electronic pen main body section 8 is formed wherein thecore body 1, the coil section 2, the connection section 3, the circuitboard 4, the board receiving base 5 and the board protecting pipe 6, andthe pipe cap 7 are united together. The electronic pen main body section8 formed in this way is accommodated in the casing 11, and a casing cap12 is attached thereto, as depicted in FIG. 1, whereby the electronicpen 10 to be used by a user is configured. Note that the pipe cap 7 andthe casing cap 12 may be integral with each other. In other words, thepipe cap 7 and the casing cap 12 may be configured as an integral body.

[Outline of Coordinate Detection Sensor of Electromagnetic ResonanceSystem]

A circuit configuration example in a specific embodiment of a positiondetecting device 200 of an electromagnetic resonance system fordetection of an indicated position and detection (sensing) of a penpressure by use of the electronic pen 10 of the electromagneticresonance system described using FIGS. 1 to 4 will be described below,referring to FIG. 5. FIG. 5 is a block diagram depicting a circuitconfiguration example of the electronic pen 10 and the positiondetecting device 200. The electronic pen 10 and the position detectingdevice 200 constitute an input device.

The electronic pen 10 is represented, in terms of circuit configuration,by a resonance circuit which includes a position indication coil 22, apen pressure detector (inclusive of a variable capacitor as apressure-sensing part) 31 connected to the position indication coil 22,and a resonance capacitor 44 and the like connected in parallel to thepen pressure detector 31.

On the other hand, the position detecting device 200 includes an X-axisdirection loop coil group 204 a and a Y-axis direction loop coil group204 b provided in a stacked form, whereby a coordinate detection sensor201 of an electromagnetic induction system is formed. Each of the loopcoil groups 204 a and 204 b is composed of 40 rectangular loop coils,for example. The loop coils constituting each of the loop coil groups204 a and 204 b are disposed in the state of sequentially overlappingwhile being aligned at regular intervals.

In addition, the position detecting device 200 is provided with aselection circuit 206 to which the X-axis direction loop coil group 204a and the Y-axis direction loop coil group 204 b are connected. Theselection circuit 206 sequentially selects one loop coil from among thetwo loop coil groups 204 a and 204 b.

Further, the position detecting device 200 is provided with anoscillator 203, a current driver 205, a change-over connection circuit207, a reception amplifier 208, a detector 209, a low-pass filter 210, asample hold circuit 212, an analog to digital (A/D) conversion circuit213, a synchronous detector 216, a low-pass filter 217, a sample holdcircuit 218, an A/D conversion circuit 219, and a processor 214.

The oscillator 203 is an oscillator that generates an alternate current(AC) signal of a frequency f0 and supplies it to the current driver 205and the synchronous detector 216. The current driver 205 converts the ACsignal supplied from the oscillator 203 into a current, and outputs itto the change-over connection circuit 207. The change-over connectioncircuit 207 changes over a connection destination (a transmission-sideterminal T, a reception-side terminal S) to which the loop coil selectedby the selection circuit 206 is connected, according to a control fromthe processor 214 which will be described later. Of these connectiondestinations, the transmission-side terminal T is connected with thecurrent driver 205, whereas the reception-side terminal R is connectedwith the reception amplifier 208.

An induced voltage generated in the loop coil selected by the selectioncircuit 206 is sent to the reception amplifier 208 through the selectioncircuit 206 and the change-over connection circuit 207. The receptionamplifier 208 amplifies the induced voltage supplied from the loop coil,and outputs the amplified voltage to the detector 209 and thesynchronous detector 216.

The detector 209 detects the induced voltage generated in the loop coil,namely, the received signal, and outputs it to the low-pass filter 210.The low-pass filter 210 has a cutoff frequency sufficiently lower thanthe aforementioned frequency f0, converts the output signal of thedetector 209 into a direct current (DC) signal, and outputs it to thesample hold circuit 212. The sample hold circuit 212 holds the voltagevalue of the output signal of the low-pass filter 210 at a predeterminedtiming, specifically, at a predetermined timing during a receptionperiod, and outputs it to the A/D conversion circuit 213. The A/Dconversion circuit 213 converts the analog output of the sample holdcircuit 212 into a digital signal, and outputs it to the processor 214.

On the other hand, the synchronous detector 216 synchronously detectsthe output signal of the reception amplifier 208 by using the AC signalfrom the oscillator 203, and outputs to the low-pass filter 217 a signalat a level according to a phase difference between these signals. Thelow-pass filter 217 has a cutoff frequency sufficiently lower than thefrequency f0, converts the output signal of the synchronous detector 216into a DC signal, and outputs it to the sample hold circuit 218. Thesample hold circuit 218 holds the voltage value of the output signal ofthe low-pass filter 217 at a predetermined timing, and outputs it to theA/D conversion circuit 219. The A/D conversion circuit 219 converts theanalog output of the sample hold circuit 218 into a digital signal, andoutputs it to the processor 214.

The processor 214 controls each part of the position detecting device200. Specifically, the processor 214 controls selection of the loop coilin the selection circuit 206, change-over in the change-over connectioncircuit 207, and the timings in the sample hold circuits 212 and 218.The processor 214 causes electromagnetic waves to be transmitted fromthe X-axis direction loop coil group 204 a and the Y-axis direction loopcoil group 204 b at predetermined transmission continuation periods,based on the signals inputted from the A/D conversion circuits 213 and219.

In each loop coil of the X-axis direction loop coil group 204 a and theY-axis direction loop coil group 204 b, an induced voltage is generatedby an electromagnetic wave transmitted from the electronic pen 10. Basedon the level of the voltage value of the induced voltage generated ineach loop coil, the processor 214 calculates coordinate values of theindicated position in an X-axis direction and a Y-axis direction of theelectronic pen 10. In addition, the processor 214 detects a penpressure, based on a phase difference between the transmittedelectromagnetic wave and the received electromagnetic wave. In this way,the input device can be configured by the electronic pen 10 of theelectromagnetic resonance system in the present embodiment and theposition detecting device 200 of the electromagnetic resonance systemdepicted in FIG. 5.

[Electronic Pen Main Body Section of Cartridge Type]

Utilizing the electronic pen main body section 8 in the presentembodiment, an electronic pen cartridge of the same shape as that of arefill of a ball-point pen, for example, can be configured, and byattaching it to the inside of a ball-point pen casing, for example, anelectronic pen can be configured. FIGS. 6A and 6B are figures forexplaining an electronic pen cartridge configured by use of theelectronic pen main body section 8 in the present embodiment.

FIG. 6A is the electronic pen main body section 8 configured asdescribed using FIGS. 1 to 4. FIG. 6A depicts a tubular cartridge casing8CT in which to accommodate the electronic pen main body section 8. Ofthe cartridge casing 8CT, a left-side end (core body side end) in FIG.6A has a small opening such that a tip portion of the core body of theelectronic pen main body section 8 is protruded therethrough. Inaddition, of the cartridge casing 8CT, a right-side end (rear end sideend) in FIG. 6A has an opening through which to insert the electronicpen main body section 8.

As indicated by dotted-line arrow in FIG. 6A, the electronic pen mainbody section 8 is accommodated into the cartridge casing 8CT through theopening at the rear end side end. FIG. 6B depicts an external appearanceof an electronic pen cartridge 9 configured by accommodating theelectronic pen main body section 8 in the cartridge casing 8CT. Notethat in FIG. 6B, there is depicted a case where the cartridge casing 8CTis composed of a transparent synthetic resin, so that the inside thereofcan be visually checked.

In the case of this example, as depicted in FIG. 6B, only a tip portionof the core body 1 of the electronic pen main body section 8 isprotruding from the opening at the core body side end of the cartridgecasing 8CT, and the other portion of the electronic pen main bodysection 8 is located inside the cartridge casing 8CT. The opening at therear end side end of the cartridge casing 8CT is closed by fitting acartridge casing cap 8BK thereto. As depicted in FIG. 6B, the cartridgecasing cap 8BK in this example is provided with a recess for mountinginto a ball-point pen casing, similarly to a refill of a ball-point pen.Note that the pipe cap 7 and the cartridge casing cap 8BK may beintegral with each other. In other words, the pipe cap 7 and thecartridge casing cap 8BK may be configured as an integral body.

As illustrated in FIG. 6B, of the electronic pen cartridge 9 in thisexample, a length R1 in the longitudinal direction and a width R2 in adirection orthogonal to the longitudinal direction are coincident withthe length and the width of a refill of a ball-point pen to which thiscartridge is attached.

By this, it is ensured that where the electronic pen cartridge 9 in thisexample formed by accommodating the electronic pen main body section 8in the cartridge casing 8CT is mounted into a predetermined ball-pointpen casing, an electronic pen to be used by a user can be therebyconfigured. In other words, an electronic pen can be configured by usingan existing ball-point pen casing and the electronic pen cartridge 9. Bythis, an electronic pen with good utility can be handily configured byutilizing a casing of a ball-point pen which the user is accustomed touse.

In addition, as described using FIGS. 6A and 6B, in the case where theelectronic pen cartridge 9 is formed, it can be utilized in place of arefill to be mounted into a casing of a multi-color ball-point pen.FIGS. 7A, 7B, and 7C are figures for explaining an example in a casewhere the electronic pen cartridge is utilized for a casing of amulti-color ball-point pen.

FIG. 7A is a configuration view depicting an external appearance of anelectronic pen 10X in this example. In the example of FIG. 7A, also, acasing 11M of the electronic pen 10X is composed of a transparentsynthetic resin, so that the inside thereof is seen through.

The casing 11M of the electronic pen 10X has the same configuration asthat of a casing and a knock cam mechanism of a commercializedknock-type multi-color ball-point pen. The casing and the knock cammechanism of a commercialized knock-type multi-color ball-point pen maybe used as they are. In this example, three electronic pen cartridges9B, 9R, and 9E are accommodated in the casing 11M.

The casing 11M is formed with an opening 11Ma on one end side in theaxial direction thereof, so that when one of the electronic pencartridges 9B, 9R, and 9E is moved sliding in the axial direction by theknocking mechanism, a tip portion of the core body 1 thereof isprotruded to the outside through the opening 11Ma.

In a state in which none of the electronic pen cartridges 9B, 9R, and 9Eis moved sliding in the axial direction by the knocking mechanism, asdepicted in FIG. 7A, the whole body of the cartridges inclusive of thetips of the respective core bodies 1 is accommodated in a hollow part ofthe casing 11M and is thereby protected. Then, as aforementioned, thetip of the core body 1 of that one of the electronic pen cartridges 9B,9R, and 9E which is moved sliding in the axial direction by the knockingmechanism is protruded to the exterior through the opening 11Ma.Therefore, the electronic pen cartridge of which the tip of the corebody 1 is protruded to the outside through the opening 11Ma by theknocking mechanism is released from protection.

The electronic pen cartridges 9B, 9R, and 9E are configured, on anexternal shape basis, similarly to the electronic pen cartridge 9described using FIGS. 6A and 6B, except that they are configured in thesame size as a refill of a multi-color ball-point pen. It is to be notedthat in the electronic pen cartridges 9B, 9R, and 9E in the case of thisexample, cartridge casings 91B, 91R, and 91E (corresponding to thecartridge casing 8CT in the drawing) are each provided with a switchmember which is turned ON and OFF according to the movement in the axialdirection by the knocking mechanism, as will be described later.

In the electronic pen 10X in this example, as will be described later,whether the respective electronic pen cartridges 9B, 9R, and 9E areprotected in the electronic pen 10X by the knocking mechanism isdetected, based on the states of the switches provided in the electronicpen cartridges 9B, 9R, and 9E. The other configurations of theelectronic pen cartridges 9B, 9R, and 9E are similarly to those of theelectronic pen cartridge 9 described using FIGS. 1 to 4B, 6A and 6B.

The knocking mechanism of the electronic pen 10X includes knock rods19B, 19R, and 19E provided with fitting sections 19Ba, 19Ra, and 19Ea towhich the electronic pen cartridges 9B, 9R, and 9E are fittedindividually, and coil springs 18B, 18R, and 18E disposed between therespective fitting sections 19Ba, 19Ra, and 19Ea of the electronic pencartridges 9B, 9R, and 9E and a spring receiving member 17.

The spring receiving member 17 is attached in the state of being fixedat a predetermined position in the axial direction in the hollow part ofthe casing 11M. The spring receiving member 17 is formed therein withthrough-holes 17B, 17R, and 17E in and through which the cartridgecasings 91B, 91R, and 91E of the electronic pen cartridges 9B, 9R, and9E are inserted and passed. The electronic pen cartridges 9B, 9R, and 9Eare passed through the through-holes 17B, 17R, and 17E of the springreceiving member 17 and through the coil springs 18B, 18R, and 18E andfitted to the fitting sections 19Ba, 19Ra, and 19Ea of the knock rods19B, 19R, and 19E, thereby being attached to the electronic pen 10X.

Those parts of the casing 11M in which the knock rods 19B, 19R, and 19Eare accommodated are provide with through-slits (omitted fromillustration in FIG. 7A) through which parts of the knock rods 19B, 19R,and 19E are exposed to the exterior and in which the knock rods 19B,19R, and 19E can be moved in the axial direction.

Like a known multi-color ball-point pen, the electronic pen 10X isconfigured as follows. When one of the knock rods 19B, 19R, and 19E isslid toward the opening 11Ma side, resulting in a state in which the tipof the core body 1 of one of the electronic pen cartridges 9B, 9R, and9E that is fitted to the knock rod thus slid is protruded to the outsidethrough the opening 11Ma, a locking portion (omitted from illustration)of the knock rod 19B, 19R, or 19E is engaged with an engaging portionformed in the hollow part of the casing 11M, resulting in a locked statein which this engaged state is locked.

In the locked state, when another knock rod is moved sliding toward theopening 11Ma side, the locking of the knock rod in the locked state isreleased, and this knock rod is returned into its original statedepicted in FIG. 7A by one of the coil springs 18B, 18R, and 18E. Then,the knock rod moved sliding later can be put into a locked state in astate wherein the tip of the core body 1 of that one of the electronicpen cartridges 9B, 9R, and 9E which is fitted to the knock rod isprotruded to the outside through the opening 11Ma.

Subsequently, in the same manner, by putting the knock rod into slidingmovement, the electronic pen cartridge of which the tip is protrudedthrough the opening 11Ma can be changed. When the sliding movement ofone of the knock rods 19B, 19R, and 19E is stopped in the course ofreaching a locked state, locking of another knock rod which is in alocked state is released, and this knock rod is returned into theprotected state of FIG. 7A by one of the coil springs 18B, 18R, and 18E.

FIGS. 7B and C are figures for explaining the switch provided in theelectronic pen cartridges 9B, 9R, and 9E. FIGS. 7B and C depict theswitch provided in the electronic pen cartridge 9B, and similarconfiguration is applied also to the other electronic pen cartridges 9Rand 9E.

Specifically, a through-hole 91Ba is provided in a peripheral surface ofthat part of the cartridge casing 91B which is just accommodated in thethrough-hole 17B of the spring receiving member 17 when the electronicpen cartridge 9B is fitted to the fitting section 19Ba of the knock rod19B being in a non-locked state; in addition, a switch member 50B isprovided inside the cartridge casing 91B in such a manner that partthereof is exposed through the through-hole 91Ba in this instance.

The switch member 50B includes a material which has elasticity andconductivity, for example, a conductive metal having elasticity. Asdepicted in FIGS. 7B and C, the switch member 50B includes a fixedterminal piece 51 fixed to an inner wall surface in the vicinity of thethrough-hole 91Ba of the cartridge casing 91B, and a movable terminalpiece 52 capable of making elastic contact with the fixed terminal piece51. The movable terminal piece 52 has a bent portion 52 a configured tobe able to assume a state of elastic contact with the fixed terminalpiece 51 and a non-contact state, and is mounted in the cartridge casing91B in such a manner that part of the bent portion 52 a can protrudethrough the through-hole 91Ba.

When the electronic pen cartridge 9B is fitted to the fitting section19Ba of the knock rod 19B being in a non-locked state and is in aprotected state in which the electronic pen cartridge 9B is entirelypresent in the hollow part of the casing 11M, the switch member 50B isjust located in the through-hole 17B of the spring receiving member 17,as illustrated in FIG. 7B. Therefore, the bent portion 52 a of themovable terminal piece 52 is elastically displaced to the inside of thecartridge casing 91B by the inner wall of the through-hole 17B, so thatthe fixed terminal piece 51 and the movable terminal piece 52 come intoa separate state of not making contact with each other. In other words,the switch member 50B comes into an OFF state.

When the knock rod 19B is moved sliding into a locked state to result ina non-protected state in which the tip of the core body 1 of theelectronic pen cartridge 9B is protruded through the opening 11Ma of thecasing 11M, the switch member 50B comes into a state of being releasedfrom the through-hole 17B of the spring receiving member 17, asillustrated in FIG. 7C. Then, part of the bent portion 52 a of themovable terminal piece 52 is elastically displaced to protrude throughthe through-hole 91Ba, whereby the movable terminal piece 52 and thefixed terminal piece 51 are put into a state of making contact with eachother. In other words, the switch member 50B comes into an ON state.

The fixed terminal piece 51 and the movable terminal piece 52 of theswitch member 50B are electrically connected to the IC 42 on the circuitboard 4 accommodated in the cartridge casing 91B. The IC 42 has afunction as a control circuit, and monitors the ON/OFF state of theswitch member 50B, thereby to detect whether the current state is theprotected state in which the electronic pen cartridge 9B is whollypresent in the hollow part of the casing 11M, or the non-protected statein which the tip of the core body 1 of the electronic pen cartridge 9Bis protruded from the opening 11Ma of the casing 11M by the knock rod19B.

In the electronic pen cartridges 9R and 9E, also, switch members 50R and50E (omitted from illustration) are provided in the cartridge casings91R and 91E, and are connected to the ICs 42 on the circuit boards 4accommodated in the cartridge casings 91R and 91E, similarly. In thecase of this example, when the switch member 50B, 50R, or 50E of theelectronic pen cartridge 9B, 9R, or 9E is put into the ON state toresult in the non-protected state, the connection between the electronicparts mounted on the circuit board 4 is turned ON, whereby a function isperformed. By this, transfer of signals between the electronic pen 10Xand the position detecting device side is enabled.

In the case of the present embodiment, the position detecting deviceused together with the electronic pen cartridges 9B, 9R, and 9E has afunction of receiving identification information transmittedindividually from the electronic pen cartridges 9B, 9R, and 9E anddiscriminating them. Specifically, the position detecting device in thecase of the present embodiment discriminates the differences among theelectronic pen cartridges 9B, 9R, and 9E, and causes functions assignedindividually to the electronic pen cartridges 9B, 9R, and 9E to berealized.

For instance, the electronic pen cartridge 9B is assigned a function ofexpressing in black a calligraphy (character or figure) displayedaccording to an indicated position thereof, while the electronic pencartridge 9R is assigned a function of expressing in red a calligraphydisplayed according to an indicated position thereof, and the electronicpen cartridge 9E is assigned a function of erasing a calligraphypreviously inputted for indication according to an indicated positionthereof.

Therefore, identification (ID) memories for storing the identificationinformation of the electronic pen cartridges 9B, 9R, and 9E, data forinforming the character colors, and data for informing the erasingfunction are mounted on the circuit boards 4 mounted individually in theelectronic pen cartridges 9B, 9R, and 9E. Besides, the ICs 42 on thecircuit boards 4 mounted individually in the electronic pen cartridges9B, 9R, and 9E are capable of transmitting signals to the positiondetecting device according to these data.

Note that the functions assigned to the electronic pen cartridges maynot be limited to display colors of the calligraphy according to theindicated position as in this example, but may be the thickness of thecalligraphy, the kind of line such as a solid line, a dotted line, analternate long and short dash line and the like.

Meanwhile, while the pen pressure detector is provided in the core bodyside member in the aforementioned embodiment, this is not restrictive,and the pen pressure detector may be provided on the side opposite tothe core body 1. FIGS. 8A, 8B, and 8C are figures for explaining anexample in a case where the pen pressure detector is provided on theside opposite to the core body 1. FIG. 8A depicts a generalconfiguration of an electronic pen main body section 8A in this example.

As illustrated in FIG. 8A, the electronic pen main body section 8A inthis example has a core body 1, a cylindrical coil section 2A, and acylindrical connection section 34. The connection section 34 has afitting section 34 a for fitting to a board protecting pipe 6, and canbe connected also to a circuit board 4 through the fitting section 34 a.Note that the circuit board 4 and the board protecting pipe 6 areconfigured similarly to those in the electronic pen main body section 8described using FIGS. 1 to 5.

FIG. 8B is a sectional view of a connection part between members of theelectronic pen main body section 8A in this example. As depicted in FIG.8B, the coil section 2A is configured by winding a coated wire 22Baround a ferrite 21A provided with recesses on the sides of both ends inthe axial direction thereof. Of the recesses provided in the ferrite21A, the recess on one side is for holding the core body 1, and therecess on the other side is for fitting to a projected portion of theconnection section 34.

The connection section 34 is formed from a resin, a rigid rubber or thelike, is provided on one side in the axial direction with the projectedportion for fitting to the recess on the other side of the ferrite 21A,and is provided on the other side with a fitting section 34 a forfitting to the board protecting pipe 6. The fitting section 34 a has anoutside diameter which is slightly larger than the inside diameter ofthe board protecting pipe 6 but is smaller than the outside diameter ofthe board protecting pipe 6, like in the case of the electronic pen mainbody section 8 described above.

When the board protecting pipe 6 is fitted to the fitting section 34 a,a tip-side end face of the board protecting pipe 6 is joined to an endface of the connection section 34 formed on the fitting section 34 aside of the connection section 34. In addition, the fitting section 34 aof the connection section 34 is provided therein with a recess intowhich a projected portion 4 a of the circuit board 4 is fitted. Asdepicted in FIG. 8B, this recess has a depth comparable to the length inthe axial direction of the projected portion 4 a of the circuit board 4.

Therefore, as depicted in FIG. 8B, the core body 1 is fixed by beingfitted into the recess on one side of the ferrite 21A, whereas theprojected portion of the connection section 34 is fixed by being fittedinto the recess on the other side of the ferrite 21A. Further, theprojected portion 4 a of the circuit board 4 is fixed by being fittedinto the recess provided in the fitting section 34 a of the connectionsection 34. The circuit board 4 is accommodated in the board protectingpipe 6, and the fitting section 34 a of the connection section 34 isfixed by being fitted into a core body side opening 61 of the boardprotecting pipe 6. Note that both end terminals 23A and 23B of a coilwound around the ferrite 21A are connected to the circuit board 4, and acapacitor 44 and the like on the circuit board 4 are connected thereto,to constitute a resonance circuit. In addition, a board receiving base 5is also provided in the board protecting pipe 6, like in the case of theelectronic pen main body section 8 described above.

Besides, in the case of the electronic pen main body section 8A in thisexample, a pen pressure detector 14 is provided at a rear end on theside opposite to the core body 1 side. FIG. 8C is a sectional view ofthe part of the pen pressure detector 14. As depicted in FIG. 8C, theelectronic pen main body section 8A in this example is separated into apart (first part) on which the circuit board 4 is mounted, and astationary part 13 (second part) to which a coupling rod member 141 isfixed. A pressure-sensing part 15 for pen pressure detection is providedat an end, on the side opposite to the core body 1 side, of the circuitboard 4. The pressure-sensing part 15 is pressed by the coupling rodmember 141 fixed to the stationary part 13.

In addition, a coil spring 142 is provided between the part (first part)on which the circuit board 4 is mounted and the stationary part 13(second part) to which the coupling rod member 141 is fixed. By this,the first part and the second part are elastically displaced so as to bespaced away from each other in the axial direction. However, as depictedin FIG. 8C, the coupling rod member 141 is provided with a stopper 141 binside a part on which the circuit board 4 is mounted, such that thefirst part and the second part are locked at a predetermined position,whereby they are prevented from being displaced further in the axialdirection.

The electronic pen main body section 8A configured in this way is, forexample, accommodated in the casing 11 as depicted in FIG. 1, to be usedas an electronic pen; in this instance, a surface of the stationary part13 on the side opposite to a surface to which the coupling rod member141 is fixed is fixed by making contact with a locking wall providedinside a rear end of the casing 11. When a pen pressure is exerted onthe core body 1 of the electronic pen main body section 8A accommodatedin the casing 11, the whole of the interconnected core body 1, the coilsection 2A, the connection section 34, and the circuit board 4 and theboard protecting pipe 6 is pushed up, and the tip 141 a of the couplingrod member 141 presses the pressure-sensing part 15. By this, the penpressure can be detected at the pressure-sensing part 15, and a signalaccording to the thus detected pen pressure can be supplied to the IC 42provided on the circuit board 4.

[Application to Electronic Pen of Capacitive Coupling System]

While the electronic pen main body sections 8 and 8A in the embodimentsdescribed above have been of the electromagnetic resonance system, thepresent disclosure is applicable also to the case where an electronicpen main body section of a capacitive coupling system is configured.FIG. 9 is a sectional view for explaining an example in a case where thepresent disclosure is applied to an electronic pen main body section ofa capacitive coupling system, and depicts a connected state of componentmembers on the core body side.

As illustrated in FIG. 9, an electronic pen main body section 8B in thisexample includes a core body 1A, a core body holding section 35, aconnection section 3, a circuit board 4, and a board protecting pipe 6.The connection section 3 is a section including a pen pressure detector31, a fitting section 32, and a connection terminal section 33, like inthe case of the electronic pen main body section 8 described above. Thepen pressure detector 31, the fitting section 32, and the connectionterminal section 33, as well as the circuit board 4 and the boardprotecting pipe 6 are configured similarly to the case of the electronicpen main body section 8 described above, and, therefore, detaileddescriptions thereof are omitted here.

In the case of the electronic pen main body section 8B in this example,the core body holding section 35 is provided in place of the coilsection 2. The core body holding section 35 includes a core body holder35 a, a conductive elastic member 35 b, and a coil spring 35 c as anelastic member. The core body 1A is fitted to the core body holder 35 aformed of a conductive material through the conductive elastic member 35b, whereby the core body 1A is coupled to and held by the core bodyholder 35 a. As depicted in FIG. 9, the core body holder 35 a is fittedto a holding member 31 c of the pen pressure detector 31, whereby apressure (pen pressure) exerted on the core body 1A is transmitted to apressure-sensing part configured in the pen pressure detector 31.

In this case, the core body holder 35 a is configured to be constantlybiased toward the core body 1A side relative to the pen pressuredetector 31 by a coil spring 35 c, which is an example of an elasticmember formed of a conductive material such as a conductive metal andwhich is provided between the core body holder 35 a and the pen pressuredetector 31. Note that the coil spring 35 c is connected to anelectronic circuit including an IC 42, a side switch 43, capacitors 44to 49 and the like disposed on the circuit board 4 via a conductorterminal member 102. By this, a signal from the IC 42 can be transmittedto the core body 1A, and can be transmitted from the core body 1A to aposition detecting device.

In addition, signal wires extending from terminal members of thepressure-sensing part configured in the pen pressure detector 31 areconnected to connection terminals 33 a and 33 b of the connectionterminal section 33. The connection terminals 33 a and 33 b areconnected to terminals 41 a and 41 b of the circuit board 4, in the casewhere the circuit board 4 is inserted into the fitting section 32 andthe connection terminal section 33, as also aforementioned. Theterminals 41 a and 41 b of the circuit board 4 are connected to theelectronic circuit including the IC 42, the side switch 43, thecapacitors 44 to 49 and the like on the circuit board 4, and a detectionoutput from the pressure-sensing part is supplied to the IC 42 on thecircuit board 4 through the terminals 33 a and 33 b and the terminals 41a and 41 b. By this, the pen pressure can be detected at the IC 42, anda signal according to the pen pressure can be transmitted through thecore body 1A to the position detecting device.

In the case of the electronic pen main body section 8B depicted in FIG.9, also, connection of the connection section 3 with the circuit board 4and the board protecting pipe 6 is conducted similarly to the case ofthe electronic pen main body section 8 described above. By this, in thecase of the electronic pen main body section 8B of the capacitiveconnection system, also, the circuit board 4 can be protected by theboard protecting pipe 6. Moreover, since the circuit board 4 can befirmly connected in series with the core body 1A, the core body holdingsection 35, and the connection section 3, it is possible to configure anelectronic pen main body section 8B of the capacitive system that ishigh in strength against external pressures.

[Outline of Position Detecting Device of Capacitive Coupling System]

FIG. 10 is a block diagram for explaining a position detecting device300 in which is used a coordinate detection sensor of a capacitivecoupling system for receiving a signal from an electronic pen 10Yconfigured by use of the electronic pen main body section 8B depicted inFIG. 9, for detecting a position on the sensor, and for detecting a penpressure and the state of a side switch.

As depicted in FIG. 10, the position detecting device 300 in thisexample includes a coordinate sensor (hereinafter referred to simply assensor) 310 of the capacitive coupling system, and a pen detectioncircuit 320 connected to the sensor 310. In this example, though asectional view is omitted, the sensor 310 is formed by stacking a firstconductor group 311, an insulating layer (omitted from illustration),and a second conductor group 312 in this order from the lower layerside. The first conductor group 311 has a configuration wherein, forexample, a plurality of first conductors 311Y1, 311Y2, . . . , 311Ym (mis a positive integer) extending in a horizontal direction (X-axisdirection) are disposed in parallel at a predetermined interval in aY-axis direction. In addition, the second conductor group 312 extends ina vertical direction (Y-axis direction) orthogonal to the firstconductor group 311 and are disposed in parallel at a predeterminedinterval in the X-axis direction.

Thus, in the sensor 310 of the position detecting device 300, aconfiguration is provided wherein a position indicated by an electronicpen is detected using a sensor pattern formed by arranging the firstconductor group 311 and the second conductor group 312 in anintersecting manner. Note that in the following description, where it isunnecessary to discriminate respective ones of the first conductors311Y1, 311Y2, . . . , 311Ym from one another, the conductors will bereferred to as first conductor 311Y. Similarly, where it is unnecessaryto discriminate respective ones of the second conductors 312X1, 312X2, .. . , 312Xn from one another, the conductors will be referred to assecond conductor 312X.

The pen detection circuit 320 includes a selection circuit 321 used asan input/output interface for the sensor 310, an amplification circuit322, a band-pass filter 323, a detection circuit 324, a sample holdcircuit 325, an AD conversion circuit 326, and a control circuit 327.

The selection circuit 321 selects one conductor 311Y or 312X from amongthe first conductor group 311 and the second conductor group 312, basedon a control signal from the control circuit 327. The conductor selectedby the selection circuit 321 is connected to the amplification circuit322, a signal from the electronic pen 10Y is detected by the selectedconductor, and it is amplified by the amplification circuit 322. Anoutput of the amplification circuit 322 is supplied to the band-passfilter 323, where only a component of the frequency of the signaltransmitted from the electronic pen 10Y is extracted.

An output signal of the band-pass filter 323 is detected by thedetection circuit 324. An output signal from the detection circuit 324is supplied to the sample hold circuit 325, where it is sample-held at apredetermined timing by a sampling signal from the control circuit 327,and is thereafter converted into a digital value by the AD conversioncircuit 326. Digital data from the AD conversion circuit 326 is read andprocessed by the control circuit 327.

The control circuit 327 operates to output control signals to the samplehold circuit 325, the AD conversion circuit 326, and the selectioncircuit 321, based on a program stored in a read-only memory (ROM)provided therein. Besides, the control circuit 327 calculatescoordinates of a position on the sensor 310 indicated by the electronicpen 10Y, from the digital data sent from the AD conversion circuit 326.Furthermore, the control circuit 327 detects a pen pressure detected bythe pen pressure detector 31 including a pressure-sensing part and thelike of the electronic pen 10Y, and the state of the side switch 43 ofthe electronic pen 10Y.

Note that in the electronic pen 10Y in this example, a signal generationcircuit 42X of an IC 42 on a circuit board 4 is composed only of anoscillation circuit, and the pen pressure and ON/OFF of the side switchare transmitted to the position detecting device as variations inoscillation frequency. However, this is not restrictive. The signalgeneration circuit may include an oscillation circuit and a circuit forapplying a predetermined modulation to an oscillation signal from theoscillation circuit, and pen pressure information and informationindicative of the ON/OFF of the side switch may be transmitted to theposition detecting device as, for example, an amplitude shift keying(ASK) signal or the like.

[Modifications of Board Protecting Pipe]

Note that in the electronic pen main body sections 8, 8A, and 8B in theembodiments described above, the board protecting pipe 6 has beenprovided with the opening 63 formed in the manner of cutting away a partof a side wall of the board protecting pipe 6 in such a manner as toconnect the core body side opening 61 and the rear end side opening 62,as described using FIGS. 2A and 2B. The opening 63 is a side opening ina direction along the axial direction, and can be called a window orcutout provided in the side surface of the board protecting pipe 6.However, this is not restrictive.

FIGS. 11A, 11B, and 11C are figures for explaining modifications of theboard protecting pipe 6. For example, a board protecting pipe 6A inModification 1 depicted in FIG. 11A has an opening 63A formed in themanner of cutting away a part of a side wall of the board protectingpipe 6 in such a manner as to connect the core body side opening 61 andthe rear end side opening 62. However, as depicted in FIG. 11A, at theparts of the core body side opening 61 and the rear end side opening 62,portions where the width of the opening is narrowed may be provided. Bysuch a configuration, fitting to the fitting section 32 of theconnection section 3 and fitting to the pipe cap 7 can be made to befirmer.

In addition, a board protecting pipe 6B in Modification 2 depicted inFIG. 11B is provided with a required minimum opening 63B at such aposition that an operation on the side switch 43 on the circuit board 4and a work of, for example, cutting the connection of capacitorsconstituting the resonance circuit together with a coil by laser can beperformed. The opening 63B is a so-called window wherein the openingrange is a closed range surrounded by the side surface of the boardprotecting pipe 6B. In addition, at the parts of the core body sideopening 61 and the rear end side opening 62, there are provided cutouts6Ba and 6Bb which are openings wherein a part of the opening range is anopen range not surrounded by the side surface of the board protectingpipe 6B. The cutouts 6Ba and 6Bb are for ensuring that fitting to thefitting section 32 of the connection section 3 and fitting to the pipecap 7 can be carried out easily, without lowering the degree of fitting.

In the case of Modification 2 depicted in FIG. 11B, the parts of theopening 63B and the cutouts 6Ba and 6Bb are narrower than the opening 63of the board protecting pipe 6 depicted in FIGS. 2A and 2B, and theopening 63A of the board protecting pipe 6A depicted in FIG. 11A.Therefore, the board protecting pipe 6B is high in strength, and canprotect the circuit board 4 firmly, as compared to the board protectingpipe 6 depicted in FIGS. 2A and 2B, and the board protecting pipe 6Adepicted in FIG. 11A.

Besides, a board protecting pipe 6C in Modification 3 depicted in FIG.11C is of a type wherein an opening 63C as a window is only provided,without providing the cutouts 6Ba and 6Bb possessed by the boardprotecting pipe 6B of Modification 2 depicted in FIG. 11B. In the caseof the board protecting pipe 6C, the strength of the board protectingpipe 6C itself can be enhanced as compared to the board protecting pipe6B depicted in FIG. 11B, by an extent according to the absence of thecutouts 6Ba and 6Bb.

[Electronic Pen Provided with Other Switch than Side Switch]

In addition, in the case of the electronic pen main body section 8 inthe embodiment described above, the side switch 43 has been provided.The side switch 43 realizes a function similarly to that of a clickbutton possessed by a so-called mouse. For example, when the side switch43 is depressed once (when one click is made), an operation of moving acursor to the depression position may be performed, and, when the sideswitch 43 is depressed twice successively (when double click is made),an operation of opening a predetermined window may be performed.

Other than this, there may be a case where it is desired to use oneelectronic pen by changing over its function, for example, between useof the electronic pen for drawing and use of the electronic pen as aso-called eraser for erasing information that has been drawn. In view ofthis, in the case of the electronic pen in the present embodiment, afunction changing-over switch, for example, can be easily configured.

FIG. 12 is a figure for explaining an example in a case where a circuitboard 4A is formed with a switch terminal. The circuit board 4A in thisexample is also configured basically in similar manner to the circuitboard 4 depicted in FIGS. 2A and 2B; function changing-over switchterminals 41 c and 41 d are provided at the part of an end on the sideopposite to the core body 1 side, in similar manner to the terminals 41a and 41 b have been provided at the part of an end on the core body 1side. These switch terminals 41 c and 41 d are connected to an IC 42that functions as a control circuit.

In this condition, however, it is difficult to provide a mechanism forturning ON/OFF the switch terminals 41 c and 41 d. In this example,therefore, a so-called socket-type switch terminal member 70 isprovided, as depicted in FIG. 12. The switch terminal member 70 has ashape as if obtained by flattening the pipe cap 7 depicted in FIG. 2A,and is thicker than the circuit board 4A. Besides, the switch terminalmember 70 is provided on one end side thereof with a recess for fittingto the circuit board 4A, and is provided on the other end side thereofwith terminals 72 a and 72 b which are formed of a conductive materialand constitute switch terminals.

In addition, the side of the circuit board 4A on which the terminals 41c and 41 d are provided is inserted and fitted into the recess of theswitch terminal member 70. In this case, the terminal 41 c of thecircuit board 4A and the terminal 72 a of the switch terminal member areconnected to each other through a conductive connection member 70 a,whereas the terminal 41 d of the circuit board 4A and the terminal 72 bof the switch terminal member are connected to each other through aconductive connection member 70 b. Such a configuration is aconfiguration similarly to the configuration of connection between theconnection terminal section 33 and the side of the circuit board 4 onwhich the terminals 41 a and 41 b for the core body 1 are provided, asdescribed using FIG. 2A. Besides, the switch terminal member 70 isfitted also to an end of the board protecting pipe 6, and, together withthe board protecting pipe 6, can hold the circuit board 4A in the boardprotecting pipe 6.

Thus, an electronic pen main body section 8 with switch terminals can beconfigured so as to have a similar configuration to the electronic penmain body section 8 described using FIGS. 1 to 4, except that thecircuit board 4A is provided with the terminals 4 c and 4 d and that theswitch terminal member 70 is provided. In addition, the switch terminals41 c and 41 d provided on the circuit board 4A are led to the terminals72 a and 72 b provided at an end surface of the switch terminal member70, whereby a switch can be configured easily. Specifically, a switchcan be configured which is put into an ON state when the terminal 72 aand the terminal 72 b are connected to each other, and which is put intoan OFF state when the terminal 72 a and the terminal 72 b are notconnected.

For this reason, a knock type mechanism of a ball-point pen is utilized,such that connection/non-connection between the terminal 72 a and theterminal 72 b can be changed over every time a knock is made. FIGS. 13Aand 13B are figures for explaining the configuration of a sliding member114 for changing over the connection/non-connection between the terminal72 a and the terminal 72 b by utilizing the knock type mechanism of aball-point pen. As depicted in FIG. 13A, the sliding member 114 includesa rod-shaped body 114A connected to the knock type mechanism, and apusher member 114B for pushing the terminals 72 a and 72 b. The pushermember 114B includes a main body section 401 a formed of an elasticmaterial such as rubber, and a metal member 401 b adhered to thatsurface of the main body section 401 a which faces the terminals 72 aand 72 b.

The sliding member 114 configured in this way is moved upwardly anddownwardly within the electronic pen casing in the manner ofinterlocking with a knock-type cam mechanism, whereby theconnection/non-connection between the terminal 72 a and the terminal 72b can be changed over. FIGS. 14A and 14B are figures for explaining aknock-type mechanism part provided on a rear case section 104 side of anelectronic pen 100 in this example, wherein FIG. 14A is a figuredepicting a state in which a knock rod 110 is not depressed, whereasFIG. 14B is a figure depicting a state in which the knock rod 110 isdepressed. The electronic pen 100 in this example has a configurationwherein switch terminals are formed by the circuit board 4A providedwith the switch terminals 41 c and 41 d and the switch terminal member70, as described using FIG. 12, and has the sliding member 114 describedusing FIGS. 13A and 13B.

The knock type mechanism of the electronic pen 100 in the presentembodiment is configured similarly to a knock cam mechanism of aknock-type ball-point pen used as a writing utensil, has a configurationwherein a knock rod 110, a rotor 111, a cam main body 112, and a returncoil spring 113 are combined together, and includes a locking mechanism.A detailed configuration of the knock cam mechanism of a knock-typeball-point pen and the operation thereof are known, and, therefore,descriptions thereof are omitted here.

In the electronic pen 100 in the present embodiment, the knock rod 110includes a first rod-shaped part 110 b which has a circular crosssection (the cross section is a section in a direction orthogonal to theaxial direction, here and hereafter) according to the cross section of ahollow part of the rear case section 104 and has a cross sectionslightly smaller than the cross section of the hollow part, a secondrod-shaped part 110 a which is formed integral with the first rod-shapedpart 110 b and which constitutes a part for linking with the rotor 111,and a flange part 110 c formed at that end face of the first rod-shapedpart 110 b which is on the side opposite to the side of coupling withthe second rod-shaped part 110 a. In addition, the knock rod 110 isaccommodated in the rear case section 104 in a state in which part ofthe first rod-shaped part 110 b constituting a part of the knock rod 110and the flange part 110 c protrude to the outside from an opening 104 bof the rear case section 104, in such a manner as to be able toslidingly move in the axial direction within the hollow part of the rearcase section 104, in response to a user's knocking operation (depressingoperation). The knock rod 110 constitutes a protruding part.

The flange part 110 c is formed in such a manner that a step isgenerated between itself and the first rod-shaped part 110 b, and, inthis example, the shape and size of the cross section of the flange part110 c are the same as the outer peripheral shape and size of the crosssection of the rear case section 104.

The cam main body 112 is formed at an inner wall surface of the rearcase section 104, and is so configured as to mesh with the rotor 111. Asthe knock rod 110 slidingly moves in the axial direction, the rotor 111moves in the axial direction within the hollow part of the rear casesection 104 and rotates, whereby the state of meshing thereof with thecam main body 112 is changed. As a result, a knocking action isperformed according to a knocking operation on the knock rod 110.

In the present embodiment, the sliding member 114 is coupled to therotor 111. The sliding member 114 includes a rod-shaped body 114A and apusher member 114B, with the pusher member 114B attached to one end sideof the sliding member 114, and with the other end side of the slidingmember 114 fitted and attached to a fitting section (omitted fromillustration) provided in the rotor 111.

In this case, the rod-shaped body 114A and the pusher member 114B areconfigured to have such lengths as to ensure the following. When theknock rod 110 is not depressed, as depicted in FIG. 14A, no force in theaxial direction is exerted, so that the metal member 401 b of the pushermember 114B does not connect the terminals 72 a and 72 b of the switchterminal member 70. However, when the knock rod 110 is depressed asdepicted in FIG. 14B, a force in the axial direction is exerted, and themetal member 401 b of the pusher member 114B makes contact with theterminals 72 a and 72 b of the switch terminal member 70, so as therebyto connect both the terminals 72 a and 72 b.

The return coil spring 113 of the knock cam mechanism is mounted in thestate of being fitted over the rod-shaped body 114A of the slidingmember 114, and can be contracted and expanded between an end face inthe axial direction of the rotor 111 and a return coil spring lockingsection 115 provided in the rear case section 104.

Specifically, when the flange part 110 c side of the knock rod 110 isdepressed in the state of FIG. 14A, a locked state is establishedwherein the knock rod 110 is locked in a state of FIG. 14B in which theflange part 110 c of the knock rod 110 is located in the vicinity of anend of the opening 104 b of the rear case section 104, by an operationof the knock cam mechanism including the rotor 111 and the cam main body112 according to a sliding movement in the axial direction of the knockrod 110.

In this instance, the metal member 401 b of the pusher member 114Bconnects the terminals 72 a and 72 b of the switch terminal member 70,whereby the switch is put into an ON state. Note that in this instance afitting hole 110 d formed in the first rod-shaped part 110 a of theknock rod 110 is engaged with an engaging projection (omitted fromillustration) formed at an inner wall of the hollow part of the rearcase section 104, whereby the knock rod 110 is locked in the state ofFIG. 14B.

When the flange part 110 c side of the knock rod 110 is again depressedfrom the state of FIG. 14B, the locked state is released by the knockcam mechanism including the rotor 111 and the cam main body 112, and theknock rod 110 and the rotor 111 are moved sliding in the axial directionsuch as to return into the state of FIG. 14A, by the return coil spring113, and are locked in the state of FIG. 14A. In this instance, afitting hole 110 e formed in the second rod-shaped body 110 a of theknock rod 110 is engaged with an engaging projection (omitted fromillustration) formed at the inner wall of the hollow part of the rearcase section 104, and the knock rod 110 is locked in the state of FIG.14A.

According to the return of the knock rod 110 and the rotor 111 into thestate of FIG. 14A, the rod-shaped body 114A and the pusher member 114Bare returned into a state in which the metal member 401 b of the pushermember 114B does not make contact with the terminals 72 a and 72 b ofthe switch terminal member 70, as depicted in FIG. 14A, whereby theswitch is put into an OFF state.

Note that a pusher member 114C may be formed in which as depicted inFIG. 13B, a spring-shaped metal member 401 c is used in place of themetal member 401 b of the pusher member 114B depicted in FIG. 13A. Thespring-shaped metal member 401 c in this example is formed by processinga linear metal member into a circular helical shape such as to have anelastic force. By this, it is ensured that by bringing the spring-shapedmetal member 401 c into simultaneous contact with the terminals 72 a and72 b of the switch terminal member 70, both the terminals can beshort-circuited. Further, the spring-shaped metal member 401 c plays therole of absorbing an excessive force, which may be exerted on the knockrod 110, in such a manner that an unrequired force is not exerted on theswitch terminal member 70. Other than the above, various members havinga conductive property and an elastic force may be used in place of themetal members 401 b and 401 c.

In the above-mentioned manner, a switch for changing over of functions,for example, can be easily configured by utilizing the switch terminalmember 70 connected to the switch terminals 41 c and 41 d of the circuitboard 4A and the knocking mechanism of a writing utensil. In this case,by using a so-called socket-type switch terminal member 70, the desiredswitch function can be mounted on the circuit board 4A with acomparatively simple configuration and without configuring a switchfunction of a complicated configuration.

[Simplification of Electrical Connection Between Coil Section andPressure-Sensing Member and Circuit Board]

In the case of the electronic pen main body section 8 of theelectromagnetic induction coupling system in the embodiment describedusing FIGS. 1 to 4B, the electrical connection between the coil 22 ofthe coil section 2 and the circuit board 4 and the electrical connectionbetween the pressure-sensing part of the pen pressure detector 31 andthe circuit board 4 have been conducted through separate routes.Specifically, the electrical connection between the pressure-sensingpart of the pen pressure detector 31 and the circuit board 4 has beenconducted by a method wherein the connection terminals 33 a and 33 b ofthe connection terminal section 33 to which the signal wires from theterminal members of the pressure-sensing part are connected and theterminals 41 a and 41 b of the circuit board 4 are connected. On theother hand, the electrical connection between the coil 22 of the coilsection 2 and the circuit board 4 has been described to be conducted bydirectly connecting the extension wires 23 a and 23 b from both ends ofthe coil 22 to the circuit board 4.

The electrical connection between the coil 22 of the coil section 2 andthe circuit board 4 and the electrical connection between thepressure-sensing part of the pen pressure detector 31 and the circuitboard 4 can be performed through the same route. FIG. 15 is a figure forexplaining the configuration of a connection section (connection member)3A in this example, for performing the electrical connection between thecoil 22 of the coil section 2 and the circuit board 4 and the electricalconnection between the pressure-sensing part of the pen pressuredetector 31 and the circuit board 4 through the same route. Theconnection section 3A is a section including the pen pressure detector31A, the fitting section 32A, and the connection terminal section 33A.

The pen pressure detector 31A, the fitting section 32A, and theconnection terminal section 33A of the connection section 3A arebasically configured similarly to the pen pressure detector 31A, thefitting section 32A, and the connection terminal section 33A of theconnection section 3 of the electronic pen main body section 8 in theembodiment described using FIGS. 1 to 4. A difference lies in the modeof electrical connection with the coil 22.

As depicted in FIG. 15, the connection terminal section 33A includesupper and lower two plate portions, and the upper plate portion isprovided with connection terminals 33 a and 33 b. These connectionterminals 33 a and 33 b are extended toward the pen pressure detector 31side, and are connected to terminal members of the pressure-sensing partof the pen pressure detector 31. Note that the connection terminals 33 aand 33 b are configured such that they can be automatically connected tothe terminals 41 a and 41 b of the circuit board 4 when they are drawnaround to the back side of the plate portion where they are provided andthe circuit board 4 is connected to the connection terminal section 33Ain a clamping manner. Thus, the configuration wherein the connectionterminal section 33A is provided with the connection terminals 33 a and33 b to be connected to the terminal members of the pressure-sensingpart is similar to the connection section 3 of the electronic pen mainbody section 8 described above.

Further, the connection terminal section 33A of the connection section 3in this example is provided with a coil connection section 33 c, asdepicted in FIG. 15. As depicted in FIG. 15, connection ends C1 and C2formed of a conductor are provided, the connection end C1 is connectedto the connection terminal 33 a, whereas the connection end C2 isconnected to the connection terminal 33 b. Besides, both ends of thecoil 22 of the coil section 2 are connected to the coil connectionsection 33 c. Specifically, as depicted in FIG. 15, coating-deprivedlead wire parts of extension wires (coated wires) 23 a and 23 b fromboth ends of the coil 22 of the coil section 2 are connected to the coilconnection section 33 c.

Note that the coil connection section 33 c may have a configurationwherein two terminals each having a V-shaped locking groove (cut) arealigned. In this case, the V-shaped locking groove provided in theterminal is, for example, a groove formed in a tapered shape which istapered from an upper portion toward a lower portion. Therefore, whenthe extension wire 22 a or the extension wire 22 b of the coil is pushedinto the V-shaped locking groove of the terminal from an opening at anupper portion toward a lower portion, the extension wire 22 a or theextension wire 22 b can be fixed to the V-shaped locking groove of theterminal. Naturally, a configuration may be adopted wherein a terminalis provided with a cut whose inlet is cut in a V shape, and theextension wire 22 a or the extension wire 22 b of the coil 22 is clampedin the cut of the terminal.

By this, the lead wire of the extension wire 23 a on one side of thecoil 22 is connected to the connection end C1 of the coil connectionsection 33 c, and the lead wire of the extension wire 23 b on other sideof the coil 22 is connected to the connection end C2 of the coilconnection section 33 c. Since the connection end C1 is connected to theconnection terminal 33 a and the connection end C2 is connected to theconnection terminal 33 b as aforementioned, the extension wire 23 a onone side of the coil 22 is connected to the connection terminal 33 a,and the extension wire 23 b on the other side of the coil 22 isconnected to the connection terminal 33 b. In other words, outputterminals of the pressure-sensing part of the pen pressure detector 31and both ends of the coil 22 are connected to the connection terminals33 a and 33 b of the connection terminal section 33A.

By this, in the case where the circuit board 4 is mounted in the mannerof clamping between the two plate portions of the connection terminalsection 33A, the connection terminals 33 a and 33 b of the connectionterminal section 33A and the terminals 41 a and 41 b can beautomatically connected. Since not only the output terminals of thepressure-sensing part but also both ends of the coil 22 are connected tothe connection terminals 33 a and 33 b of the connection terminalsection 33A, the pressure-sensing part of the pen pressure detector 31and the coil 22 of the coil section 2 can be simultaneously connected tothe electronic circuit formed on the circuit board 4.

FIG. 16 is a figure depicting an example of an equivalent circuit in thecase where an electronic pen main body section is configured using theconnection section 3A depicted in FIG. 15. As depicted in FIG. 16, theextension wire 23 a from one end of the coil 22 is connected to theconnection end C1 of the coil connection section 33 c, whereas theextension wire 23 b from the other end of the coil 22 is connected tothe connection end C2 of the coil connection section 33 c.

The connection ends C1 and C2 are connected to the connection terminals33 a and 33 b of the connection terminal section 33A to which the outputterminals of the pressure-sensing part of the pen pressure detector 31are connected. By this, when the circuit board 4 indicated by a dottedline is connected to the connection terminal section 33A, the connectionterminal 33 a and the terminal 41 a of the circuit board 4 areconnected, and the connection terminal 33 b and the terminal 41 b of thecircuit board 4 are connected, as indicated by arrows. As a result, thecoil 22 of the coil section 2 and the pressure-sensing part of the penpressure detector 31A can be electrically connected, simultaneously andreliably, to the electronic circuit formed on the circuit board 4.

Note that in regard of the fitting section 32A and the connectionterminals 33 a and 33 b provided in the connection terminal section 33A,of the connection section 3A, the fitting section 32A and the connectionterminal section 33A are formed with the conductor patterns of aconductive material depicted in FIG. 15, for example, by use of variousmethods such as pressure joining, fusing, adhesion, or coating. In thiscase, on the pen pressure detector 31 side, the connection terminals 33a and 33 b are formed in such a manner that they can be connected to theoutput terminals of the pressure-sensing part of the pen pressuredetector 31 by only fitting the fitting section 32A and the connectionterminal section 33A to the pen pressure detector 31. Besides, asdepicted in FIG. 15, the coil connection section 33 c provided with theconnection ends C1 and C2 which are electrically connected to theconnection terminals 33 a and 33 b is provided.

As a result, it is possible to form the connection section 3A forconstituting the electronic pen main body section 8 such that thepressure-sensing part of the pen pressure detector 31 and the coil 22 ofthe coil section 2 can be connected to the circuit on the circuit board4 easily and reliably, without involving an adhering operation such assoldering. By use of the connection section 3A, it is possible torealize an electronic pen main body section 8 which is extremely easy toassemble.

Note that an electronic circuit including an IC 42, capacitors 44, 45, .. . is depicted to be formed on the circuit board 4 in FIG. 16, theelectronic circuit formed on the circuit board 4 can naturally takevarious configurations, such as providing a side switch or providingother capacitors.

[Others]

Note that the board protecting pipe 6 has been assumed to have acylindrical shape in the aforementioned embodiment, this is notrestrictive. A tubular body having a side wall which is polygonal insection may be used. FIGS. 17A and 17B are figures for explaining anexample of a board protecting pipe which is polygonal in section in adirection intersecting the longitudinal direction thereof. A boardprotecting pipe 6D depicted in FIG. 17A has a shape which is notcylindrical but substantially prismatic. The board protecting pipe 6D isprovided with a core body side opening 61 on the core body side thereof,is provided with a rear end side opening 62 on the rear end sidethereof, and is provided with a large opening 63D in a side surface (onan upper surface side) thereof.

As depicted in FIG. 17B, a section in a direction intersecting thelongitudinal direction of the board protecting pipe 6D has a flat bottomsurface, and side walls which are somewhat rounded to outside. In thecase of the board protecting pipe 6D having such a shape, there is amerit that, for example, the circuit board can be stably embraced andheld by the board protecting pipe 6D. In addition, as a window (a sideopening in a direction along the axial direction) provided in the boardprotecting pipe, a required number of windows having a required size canbe provided at appropriate positions. Thus, the opening on the uppersurface side is not limited to the large opening 63D depicted in FIG.17A, and the opening can be provided in various modes, as describedusing FIGS. 11A, 11B, and 11C, for example.

It is to be noted, however, that in order that the circuit boardaccommodated in the board protecting pipe can be held, it is preferablethat a part is present which has a side wall over an angular range ofnot less than 180 degrees with the axis as a center. More preferably, itis sufficient to adopt a configuration wherein both long sides of thatsurface of the circuit board accommodated in the board protecting pipewhich faces the side opening make contact with the inner wall of theboard protecting pipe and do not come out to the exterior. In otherwords, it is sufficient to adopt a configuration wherein the sideopening provided in the board protecting pipe is smaller than thatsurface of the circuit board which faces the side opening. Note that formaintaining the strength of the board protecting pipe 6, it ispreferable to adopt a configuration wherein a part is absent which has aside wall over an angular range of less than 180 degrees with the axisas a center.

In addition, naturally, various electronic parts other than theaforementioned electronic parts can be mounted on the circuit board 4.

Besides, as each of component parts constituting the electronic pen mainbody 8 or the like, those of appropriate sizes can be used, whereby anelectronic pen main body section of an appropriate size can beconfigured.

Note that a variable capacitor whose capacitance is varied according tothe pen pressure by a mechanical movable part has been used for thepressure-sensing part of the pen pressure detector 31 in the embodimentdescribed above, this is not restrictive. A variable capacitorconfigured as a micro electro mechanical system (MEMS) chip including asemiconductor device may also be used. In addition, naturally, thepressure-sensing part may not be one that detects variation incapacitance but be one wherein inductance value or resistance value isvariable.

DESCRIPTION OF REFERENCE SYMBOLS

1 . . . Core body, 2 . . . Coil section, 3 . . . Connection section, 31. . . Pen pressure detector, 32 . . . Fitting section, 33 . . .Connection terminal section, 33 a, 33 b . . . Connection terminal, 4 . .. Circuit board, 41 a, 41 b . . . Terminal, 42 . . . IC (controlcircuit), 43 . . . Side switch, 44 to 49 . . . Capacitor, 5 . . . Boardreceiving base, 6, 6A, 6B, 6C, 6D . . . Board protecting pipe, 61 . . .Core body side opening, 61 a . . . Core body side fitting section, 62 .. . Rear end side opening, 62 a . . . Rear end side fitting section, 63,63A, 63B, 63C, 63D . . . Opening, 7 . . . Pipe cap, 8 . . . Electronicpen main body section, 9 . . . Electronic pen cartridge, 10 . . .Electronic pen, 11 . . . Case, 12 . . . Casing cap, 70 . . . Switchterminal member, 70 a, 70 b . . . Connection member, 41 c, 41 d . . .Terminal, 114, 114′ . . . Sliding member, 114A . . . Rod-shaped body,114B, 114C . . . Pusher member, 401 a . . . Main body section, 401 b,401 c . . . Metal member, 3A . . . Connection section, 31A . . . Penpressure detector, 32A . . . Fitting section, 33A . . . Connectionterminal section, 33 c . . . Coil connection section, C1, C2 . . .Connection end

The invention claimed is:
 1. An electronic pen comprising: a circuitboard including a portion at one end of the circuit board in the axialdirection of the circuit board; a connection member that includes afirst portion at a first end of the connection member and a secondportion at a second end of the connection member, wherein the firstportion is in contact with the second portion and the second portionextends from the first portion, wherein the portion of the circuit boardat the one end of the circuit board in the axial direction of thecircuit board is disposed within a recess provided inside the firstportion of the connection member, and wherein the first and secondportions of the connection member are in contact with and coupled to theportion of the circuit board at the one end of the circuit board in theaxial direction of the circuit board; a rigid tubular member that is incontact with and coupled to the first portion of the connection memberat the first end of the connection member, wherein the circuit board isdisposed within the rigid tubular member with the rigid tubular membersurrounding at least part of four sides of the circuit board, andwherein the circuit board is fixed at the second end of the connectionmember by the second portion of the connection member that is in contactwith and coupled to the circuit board; and a casing that accommodatesthe connection member and the rigid tubular member with the circuitboard disposed within the rigid tubular member.
 2. The electronic penaccording to claim 1, wherein a side opening of the rigid tubular memberis formed at a position corresponding to a predetermined electronic partprovided on the circuit board.
 3. The electronic pen according to claim1, wherein the rigid tubular member is provided with a cutout in afitting portion that fits to the connection member.
 4. The electronicpen according to claim 1, wherein a side opening of the rigid tubularmember is provided continuously from a first end in an axial directionof the rigid tubular member to a second end in the axial direction ofthe rigid tubular member.
 5. The electronic pen according to claim 1,wherein the rigid tubular member has a side wall over an angular rangeof not less than 180 degrees, with an axis thereof as a center, even ina site of a side opening of the rigid tubular member.
 6. The electronicpen according to claim 1, further comprising: a board receiving sectionthat is located between the rigid tubular member and the circuit boardaccommodated in the rigid tubular member, and that pushes the circuitboard and clamps the circuit board between itself and the rigid tubularmember.
 7. The electronic pen according to claim 1, wherein the rigidtubular member is formed of any one of a metal, a carbon material, and asynthetic resin.
 8. The electronic pen according to claim 1, wherein theconnection member includes a pen pressure detector.
 9. The electronicpen according to claim 1, further comprising: a core body protrudingthrough an opening in the casing to outside of the casing, wherein asignal-transmitting or signal-transmitting-and-receiving coil isprovided around the core body.
 10. The electronic pen according to claim1, wherein: the circuit board includes a switch terminal sectionprovided with at least two contacts, at an end thereof opposite to aside where the circuit board is held by the connection member, theelectronic pen further comprises: a connection terminal section thatmoves within the casing according to a user's operation, and thatswitches between a state in which the two contacts of the switchterminal section of the circuit board are electrically connected to eachother and a state in which the two contacts are not electricallyconnected to each other.
 11. The electronic pen according to claim 1,wherein the electronic pen is configured in a same shape as a refill tobe accommodated in a ball-point pen casing.
 12. The electronic penaccording to claim 1, wherein the electronic pen is configured in a sameshape as a refill to be accommodated in a multi-functional pen casing.13. The electronic pen according to claim 1, wherein the rigid tubularmember has a side opening that enables an operation to be performed onthe circuit board disposed within the rigid tubular member and held atthe second end of the connection member by the portion of the connectionmember that is in contact with and coupled to the circuit board.
 14. Theelectronic pen according to claim 1, wherein the first portion and thesecond portion of the connection member are in contact with oppositesides of the portion of the circuit board at the one end of the circuitboard in the axial direction of the circuit board.
 15. The electronicpen according to claim 1, wherein the first portion of the connectionmember surrounds the portion of the circuit board at the one end of thecircuit board in the axial direction of the circuit board.
 16. Theelectronic pen according to claim 1, wherein the second portion of theconnection member includes a pair of plate portions that extend from thefirst portion of the connection member, and a portion of the circuitboard is sandwiched between the plate portions.
 17. The electronic penaccording to claim 1, wherein an outer diameter of the first portion isgreater than an outer diameter of the second portion.
 18. The electronicpen according to claim 1, wherein the rigid tubular member has acylindrical shape.
 19. The electronic pen according to claim 1, furthercomprising: a core body including a first end potion that protrudesthrough an opening in the casing to outside of the casing and a secondend portion opposite to the first end portion, wherein the connectionmember holds the second end portion of the core body.
 20. The electronicpen according to claim 16, further comprising: a pair of terminals onthe portion at the one end of the circuit board; and two terminalsinterposed between the plate portions, wherein, while the portion of thecircuit board is sandwiched between the plate portions, the twoterminals interposed between the plate portions are in contact with thepair of terminals on the circuit board.